PBL 4

Question 1

What is spinal shock?

Answer 1

relates to the loss of all neurological activity below the level of injury, including:

• motor
• sensory
• reflex
• autonomic

Question 2

How long does spinal shock usually last?

Answer 2

30-60 minutes up to 6 weeks post injury

Question 3

What are the clinical features of spinal shock?

Answer 3

• loss of pain
• loss of proprioception
• sympathetic dysfunction (bowel and bladder)
• loss of thermoregulation

Question 4

What are the 4 phases of spinal shock?

Answer 4

• areflexia
• initial reflex return
• hyperreflexia
• hyperreflexia - spasticity

Question 5

Describe the underlying physiology of arreflexia

Answer 5

loss of descending facilitation

• neurons involved in various reflex arcs lose the basal level of excitatory stimulation they normally receive from the brain

Question 6

describe the underlying physiology of the return of initial reflexes

Answer 6

Denervation supersensitivity

• reflexes return due to hypersensitivity of reflex muscles following denervation
• more receptors and neurotransmitters are expressed and muscles are easier to stimulate
• restoration of reflexes from polysynaptic to monosynaptic

Question 7

Describe the underlying physiology of the initial hyperreflexia and hyperreflexia and spasticity

Answer 7

Axon-supported synapse growth
Soma-supported synapse growth (respectively)

• interneurons and lower motor neurons below the transection begin sprouting, attempting to re-establish synapses
• phase 3 = first synapses to form are from shorter axons (usually from interneurons)
• phase 4 = takes longer since synapse formation is some mediated (takes longer for axonal transport to push growth factors and proteins from soma to the end of the axon)

Question 8

How can spinal shock be tested?

Answer 8

• checking the bulbocavernosus reflex

Question 9

What is the bulbocavernosus reflex?

Answer 9

monitor internal/external anal sphincter contraction by squeezing the glans penis or clitoris

Question 10

Which is the first reflex to return after spinal shock subsides?

Answer 10

The babinski reflex (plantar reflex)

Question 11

What marks the end of spinal shock?

Answer 11

the return of reflexes

Question 12

How can spinal injury occur?

Answer 12

• trauma (contusion or penetration/transection of neural tissue)
• compression (tumour, haematoma or bony encroachment)

Question 13

What are the major mechanisms of spinal cord injury?

Answer 13

• hyperflexion
• hyperextension
• compression

Question 14

What are the secondary effects of spinal cord injury?

Answer 14

• oedema
• inflammatory/immune processes
• ischaemia

Question 15

What is neurogenic shock?

Answer 15

from of disruptive shock caused by the loss of brainstem and higher centre control of the sympatheric nervous sysem

Question 16

What is the result of neurogenic shock

Answer 16

• loss of sympathetic outflow results in hypotension caused by peripheral vasodilation
• bradycardia, due to reduced venous return
• the loss of impulses from the thermoregulatory centre in the brain prevents the ability to sweat below the level of injury

Question 17

describe the location of pre-ganglionic neurons in the sympathetic region

Answer 17

thoracolumbar region (leave via T1-L3)

Question 18

describe the location of the ganglia in the sympathetic system

Answer 18

sympathetic trunk (next to vertebral column from T1 to coccyx)

Question 19

Describe the relative length of the neurons in the sympathetic system

Answer 19

short preganglionic neurons and long postganglionic neurons

Question 20

What is the function of the sympathetic system

Answer 20

fight or flight

• increased HR
• decreased gut activity
• pupils dilate

Question 21

describe the location of pre-ganglionic neurons in the parasympathetic region

Answer 21

brainstem (leave via CNIII, IX and X)

sacral region (leave via S2-S4)

Question 22

describe the location of the ganglia in the parasympathetic system

Answer 22

near target organ (walls of viscera they innervate)

Question 23

Describe the relative length of the neurons in the sympathetic system

Answer 23

long preganglionic neurones and short postganglionic neurons

Question 24

What is the function of the parasympathetic system

Answer 24

rest and digest

• heart rate decreases
• gut activity increases
• secretions increase

Question 25

Injury at what level can affect the diaphragm?

Answer 25

C3, 4, 5, which makes up the phrenic nerve which innervates the diaphragm

Question 26

Injury at what level can affect the intercostal muscles?

Answer 26

C6, 7 which supply the intercostal muscles

Question 27

What is the affect on breathingof an injury at C3-5?

Answer 27

diaphragm can be affected

Question 28

What is the affect on breathing of an injury at c6,7?

Answer 28

breathing will occur but without the assistance of respiratory/accessory muscles

Difficulty in coughing, may need help clearing secretions

Question 29

What is the affect on breathing of a spinal cord injury above the level of C4?

Answer 29

disconnection of all motor neurones innervating the respiratory muscles from the respiratory centres in the hind/midbrain

Question 30

What limb movements will be affected by a spinal cord injury at C1-4?

Answer 30

Quadriplegia (paralysis of all 4 limbs)

Question 31

What limb movements will be affected by a spinal cord injury at C5?

Answer 31

Control of shoulder & biceps but no wrist/hand control

Question 32

What limb movements will be affected by a spinal cord injury at C6?

Answer 32

wrist control but no hand control

Question 33

What limb movements will be affected by a spinal cord injury at C7/T1?

Answer 33

most upper limb control, however fine dexterous control of hands/fingers affected

Question 34

What limb movements will be affected by a spinal cord injury at T1-8?

Answer 34

Paraplegia (both lower limbs), poor control of trunk/abdominal movements

Question 35

What limb movements will be affected by a spinal cord injury at lumbar/sacral region?

Answer 35

decreased control of hip flexors and legs

Question 36

What affect on the bladder does an injury above S2 have?

Answer 36

loss of bladder control as the micturition centre is in S2-4

Question 37

What affect on the bladder does an injury below S4/5?

Answer 37

Some bladder control will be retained

Question 38

Why might SCI patients struggle to empty their bladder?

Answer 38

loss of sympathetic control via hypogastric nerve (T12-L1), which doesnt act on beta3 receptors, therefore keeping the detrusor muscle constricted

Question 39

Describe the return of somatic reflexes following a spinal cord injury

Answer 39

• never regain voluntary control of skeletal musculature
• reflex activity gradually recovers (together with autonomic activity)
• flexor reflexes return first, followed by extensor
• final stage = predominant extensor activity with spasms

Question 40

Which somatic reflexes return first?

Answer 40

• flexor reflexes

- ankle, knee and hip in sequence

Question 41

Which somatic reflexes return later?

Answer 41

• extensor reflexes, about 6 months following transection

- tend to be exaggerated leading to spastic paralysis

Question 42

Describe the return of autonomic reflexes following a spinal cord injury

Answer 42

mass reflex (autonomic dyreflexia) occurs, which is the stage of reflex activity that follows the primary flaccidity of the shock due to massive sympathetic discharge

Question 43

What autonomic reflexes return following spinal cord injury

Answer 43

• trivial stimulus to groin or sole of foot = exaggerated reflex response with flexion of legs, defaecation, micturition and erection in males
• prfound sweating triggered by cutaneous stimulation

Question 44

What is the effect of autonomic reflex return on BP following SCI

Answer 44

BP control remains unstable despite return

• rises with filling of bladder due to stretch receptor bombardment
• change of posture from lying to standing causes pooling of blood in the legs and leads to reduction of venous return but autonomic compensating mechanisms are inadequate = bp falls and patient may faint (orthostatic hypotension)

Question 45

What are upper motor neurons?

Answer 45

neurons in the primary motor cortex that have axons in the spinal cord and excite alpha-motorneurons directly or by spinal interneurons (CNS)

Question 46

what are lower motor neurons?

Answer 46

alpha-motorneurons that run from the spinal cord to the periphery (PNS)

Question 47

Which motor neuron lesion causes mucle wasting?

Answer 47

lower motor neuron lesion

Question 48

Which motor neuron lesion causes fasciculations

Answer 48

lower motor neuron lesion

Question 49

Which motor neuron lesion causes flaccid tone?

Answer 49

lower motor neuron lesion

Question 50

Which motor neuron lesion causes spastic tone?

Answer 50

upper motor neuron lesion

Question 51

Which motor neuron lesion causes reduced or absent tenson jerk reflex?

Answer 51

lower motor neuron lesion

Question 52

Which motor neuron lesion causes exaggerated tendon jerk reflex?

Answer 52

upper motor neuron lesion

Question 53

Which motor neuron lesion causes a negative babinski response?

Answer 53

lower motor neuron lesion

normal toe flexion

Question 54

Which motor neuron lesion causes positive babinski response?

Answer 54

upper motor neuron lesion

Question 55

Why does LMN lesion cause weakness or paralysis?

Answer 55

= loss in muscle bulk

Question 56

Why does UMN lesion cause weakness or paralysis?

Answer 56

insufficient recruitment of alpha-motorneurons